Abstract
The small nuclear RING finger protein SNURF is not only a coactivator in steroid receptor-dependent transcription but also activates transcription from steroid-independent promoters. In this work, we show that SNURF, via the RING finger domain, enhances protein binding to Sp1 elements/GC boxes and interacts and cooperates with Sp1 in transcriptional activation. The activation of androgen receptor (AR) function requires regions other than the RING finger of SNURF, and SNURF does not influence binding of AR to cognate DNA elements. The zinc finger region (ZFR) together with the hinge region of AR are sufficient for contacting SNURF. The nuclear localization signal in the boundary between ZFR and the hinge region participates in the association of AR with SNURF, and a receptor mutant lacking the C-terminal part of the bipartite nuclear localization signal shows attenuated response to coexpressed SNURF. Some AR ZFR point mutations observed in patients with partial androgen insensitivity syndrome or male breast cancer impair the interaction of AR with SNURF and also render AR refractory to the transcription-activating effect of SNURF. Collectively, SNURF modulates the transcriptional activities of androgen receptor and Sp1 via different domains, and it may act as a functional link between steroid- and Sp1-regulated transcription.
Highlights
The androgen receptor (AR),1 a member of the steroid receptor family, acts as a hormone-regulated transcription factor
We recently identified a novel coactivator of AR-dependent transcription, a small nuclear RING finger protein termed SNURF, which interacts with the AR zinc finger region (ZFR) [27]
Besides steroid receptor-dependent promoters, SNURF activates transcription from promoters driven by specificity protein 1 (Sp1) elements/GC boxes
Summary
Besides steroid receptor-dependent promoters, SNURF activates transcription from promoters driven by Sp1 elements/GC boxes. SNURF is able to bind to the TATA-binding protein, and it could act as a bridging factor between steroid receptors or other sequence-specific transcription factors and the general transcription machinery [27]. To gain a better understanding of the functional domains of SNURF, we have examined the ability of mutated SNURF forms to act as transcriptional coactivators in the context of both androgen- and Sp1-regulated promoters. The requirements for interactions between SNURF and AR were investigated by using a panel of mutated AR forms
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